A new model uncovers how Earth’s liquid core has sustained its magnetic field since the planet’s beginnings, offering new ...

Primordial magnetic fields, billions of times weaker than a fridge magnet, may have left lasting imprints on the Universe.

As the iron and nickel inside our planet shift, so does Earth's magnetic field, meaning the North (and South) Poles are also ...

A series of observations between 2017 and 2021 suggest the supermassive structure’s magnetized plasma is more dynamic than ...

Event Horizon Telescope data reveal the magnetic field around M87* shifted, weakened and then flipped, defying theoretical expectations.

Long before galaxies sparkled in the sky or stars took shape, invisible forces stirred in the early Universe. One of those forces—magnetism—emerged in ways scientists are only now beginning to ...

Exoplanet habitability depends on a whole host of factors, with liquid water at the top of the list. It also requires a stable atmosphere, the right chemistry, and possibly even things like plate ...

Research using 250,000 simulations and observations shows early Universe magnetic fields were incredibly weak, yet still ...

The SwRI-led MAPS instrument will study mysterious swirls on the Moon’s surface thought to be associated with localized lunar magnetic fields. Southwest Research Institute has delivered a plasma ...

On Sunday, they announced the successful generation of a steady magnetic field of 351,000 gauss using a fully superconducting ...